PAT is crucial to the creation of successful and highly effective flow chemistry processes, delivering advanced, quality-centric process control and quality assurance. The implementation of this regulatory-compliant approach from R&D though to GMP manufacturing offers increased flexibility in the synthesis approach, safer processes, the possibility of changing starting materials together with reducing production times and costs whilst improving quality. As a result, businesses can benefit from rapid return on investment as well as optimised and streamlined processes.
On Optimal’s virtual booth at CFC summit, visitors will have access to key media and literature on the topic. In addition, they can learn more about Optimal’s PAT knowledge management platform, synTQ, which is used by over 60% of the leading pharmaceutical companies worldwide.
PAT knowledge managers are essential in PAT-driven processes, as they are the central data flow and data fusion controllers for all connected systems. synTQ also ensures that all the processes, including quality predictions and closed loop control, are executed in a regulatory-compliant way with full data integrity. It provides pharmaceutical businesses with a comprehensive and holistic view; offering responsive, data-driven control in order to optimise R&D and manufacturing activities.
Optimal is a CFC 2020 Exhibition Partner and its leading specialists will be available throughout the event to discuss how to implement PAT-driven flow chemistry and the benefits that synTQ can offer via the summit roundtables and platform networking features. More precisely, anyone who wants to find out more will be able to schedule virtual meetings or consultations with them during the summit by visiting the company’s exhibition page.
Martin Gadsby, Director at Optimal Industrial Technologies, comments: “Flow chemistry is a gamechanger for developers and producers of small molecule drug substances and products. We have already supported major pharmaceutical manufacturers in the adoption of flow chemistry from R&D to GMP production. They were able to accelerate new product development and increase manufacturing throughput in a fully regulatory compliant way. We would like to invite anyone interested in knowing more about how we can help in the implementation of PAT-driven flow chemistry solutions to get in touch with us during the summit.”
Visit Optimal’s virtual booth at Commercializing Flow Chemistry (CFC) digital event on 26th-27th August 2020 by registering at: https://commercializing-flow-chemistry.com/
Image 1: Optimal Industrial Technologies will sponsor and exhibit at Commercializing Flow Chemistry (CFC) virtual summit on 26th-27th August 2020 (Source: Shutterstock Copyright: PopTika ID: 1463056829).
Within the Optimal group, we have more than 30 years’ experience in the automation and optimisation of control and data management systems for the food, chemical, pharmaceutical, biotech, life science and other process industries.
The demands being placed on manufacturers in relation to getting products to market sooner, minimising development and production costs together with increasing product quality and business sustainability are ever increasing. Our primary aim is to deliver measurable improvements in all these target areas.
In addition to practical automation and system integration expertise, Optimal Industrial Technologies has also developed the world-leading PAT Knowledge Management software platform – synTQ® – which is used by over 60% of the world’s leading pharmaceutical and biotech companies, and is now being adopted by other process industries. synTQ has been a proven enabler of QbD via PAT by significantly increasing productivity and quality, while reducing waste, time to manufacture and time to market for batch and continuous processes.
Tel: +44 (0)1905 917477
Address: Progress House, Midland Road, Worcester, Worcestershire, WR5 1AQ, United KingdomReader Contact:
Optimal Industrial Technologies: Martin Gadsby
Tel: +44 (0) 1173 742 222
Address: 5 Monarch Close, Emersons Green, Bristol, BS16 7FH, United Kingdom